KR101441400B1 - Reinfocing method using pile for old and new foundation of structure - Google Patents

Abstract

The present invention relates to a base pile reinforcement method for a conventional or novel structure. In the present invention, the mount area of the head of a pile installed in an extension structure on the foundation of the conventional or novel structure is arranged on the lower part of the upper surface of the extension structure to obtain sufficient resistance performance against the punching shear of the pile head installed on the extension structure. The upper holder is integrally formed on the upper part of an initial setting file, and a lower anchor is extended upward through the lower plate of the upper holder. A pressing body is connected and installed to the lower anchor to press-fit the pile by using the initial setting pipe installed on the upper holder.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a file reinforcement method for an existing and new structure,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a file reinforcement method based on existing and new structures. More specifically, in the reinforcement of existing and new structure bases, the fixation area of the head of the pile installed on the expansion structure is positioned lower from the upper surface of the expansion structure, so that the resistance performance against the punching shear of the pile head installed on the expansion structure The present invention relates to a pile reinforcement method for an existing and new structure foundation capable of securing sufficient safety and preventing safety accidents.

FIG. 1A shows a construction diagram of a structure lifting method by a conventional foundation reinforcement.

That is, the anchor bar 12 is installed on the side surface of the foundation 11 which is exposed and exposed. The anchor bars 12 are generally made of reinforcing bars. For example, the anchor bars 12 are formed by piercing the side surface of the base 11, inserting reinforcing bars, and fixing the reinforcing bars with mortar or the like. The anchor bar 12 serves to integrate the existing base 11 with the newly formed reinforcement foundation.

Next, a hollow pipe is installed on the side of the foundation 11 of the structure 10, and the reinforced foundation 13 is formed by assembling the anchor bar 12 and the foundation steel and pouring concrete.

The hollow pipe has a slightly larger outer diameter than the outer diameter of the compacted body to form a press-fit hole on the enlarged reinforcing foundation 13 for the subsequent compacted body. The hollow pipe is installed vertically on the bottom of the compacted body, Reinforced foundation 13, and is fixed to the anchor bar 12 by wire or the like.

Also, the basic reinforcing bars of the enlarged reinforcing bases 13 are assembled, and they are assembled firmly to the anchor bars 12 by wire or by welding.

At this time, a lower reaction force mechanism 23 is installed around the hollow pipe and is rigidly assembled to the foundation steel. The lower reaction force mechanism 23 is a reinforcing bar or a steel bar having a plurality of hollow tubes arranged at predetermined intervals around the hollow pipe, Reinforced foundation 13 so as to protrude upward from the upper surface of the enlarged reinforcing foundation 13 at a predetermined height.

When the assembling of the hollow pipe, the foundation reinforcing bar and the lower reaction force tool 23 is completed, the concrete is laid and cured to form an enlarged reinforcing foundation 13 integrated with the existing foundation 10.

Next, the hollow pipe is removed to form a press-fit hole (14). The press-fitting hole 14 is for setting an initial press-fitting position of an indentation body such as a steel pipe file, and has the same inner diameter as the outer diameter of the hollow pipe. An upper reaction force member 21 is connected to the upper end of the exposed lower reaction force member 23. A connection hole 22 is formed at the upper end of the lower reaction force member 23 and the lower end of the upper reaction force member 21, .

The upper reaction force member 21 is made of a reinforcing bar or a steel bar like the lower reaction force member 23, and the coupling member 22 is a coupler that is a conventional reinforcing bar connection device.

A reaction supporting body 20 serving as a reaction force band for pressing the pressing body into the lower ground of the enlarged reinforcing base 13 is fixed to the upper end of the reaction force supporting body 20 by fastening and fixing the upper supporting body 24 made of a circular plate material Respectively.

At this time, through holes are formed in the upper support body 24 in correspondence to the number of the upper and lower reaction force holes 21 and 23, and the upper end of the reaction force support body 20 is fastened by a fastener 24 such as a fastening nut .

A head reinforcing plate 26 is selectively installed on the top end of the steel pipe while the press fitting body 30 as a steel pipe is set in the press fitting hole 14 and the head reinforcing plate 26 is provided between the top supporting body 24 and the head reinforcing plate 26 A pressurizing means 40 such as a hydraulic cylinder having a predetermined capacity is installed and operated by using a pillar 27 so that the pressing body 30 is pressed into the lower ground of the magnifying reinforcing base 13.

That is, the operation of the hydraulic cylinder is restrained by the reaction force support body 20 so that the steel pipe is press-fitted into the ground under the press-fit hole 14 in the form of the reaction force.

After the press-fit body 30 is completely press-fitted into the lower foundation of the enlarged reinforcement foundation 13 by the press-fitting of the steel pipe, the press-fitted press fabric 30 is used to pull down the structure 10 which has been submerged.

That is, a lifting means including a hydraulic cylinder is installed at the upper end of the pressing body 30. The lifting means may be constituted separately by a hydraulic cylinder having a larger capacity, but the pressing means 40 may be used as it is .

After ascertaining the pulling of the structure 10, the lifting means and the reaction force supporting body 20 are dismantled in order, and the press-fitted body 30 is finished.

First, the steel pipe head is cut according to the degree of press-fitting of the compact body 30 to adjust the height thereof, and the inside of the steel pipe as the compact body 30 is filled with concrete so that the concrete filled steel pipe is pulled up, It can function as a base file.

Next, the pressing body 30 is integrated with the lower reaction force fittings 23 fixed on the magnifying reinforcing base 13, so that it functions as a foundation file of the structure 10 as a result.

As shown in FIG. 1B, a ceiling finishing plate 60 in the form of a circular plate is provided on the upper portion of the pressing body 30, and an upper end portion of the lower reaction force fitting 23 is fastened to the through hole formed in the ceiling finishing plate 60 So that the lower reaction force tool 23 fixed to the reinforcing base 13 is integrated with the pressing body 30 as a steel pipe.

The finished concrete 30 is placed on the upper surface of the enlarged reinforcing foundation 13 so that the upper end of the compacted body 30 is uncovered and integrated with the enlarged reinforced foundation 13 so that the final compacted body 30 and the structure 10 So that they are integrated with each other.

As shown in FIG. 1C, the upper end of the lower reaction force tool 23, which is a reinforcing bar or a steel bar, is cut and bent to have a predetermined length so as to be overlapped with each other on the upper side of the steel pipe so that the lower reaction force tool 23 surrounds the upper part of the steel pipe, The finishing concrete is placed on the upper surface of the foundation 13 so that the upper end of the compact body 30 is uncovered and integrated with the enlarged reinforcement foundation 13 so that the ultimate compact body 30 and the structure 10 are integrated with each other .

At this time, a finishing reinforcing plate 61 in the shape of a circular plate is provided between the bent lower reaction force tool 23 and the upper end of the steel pipe, and the lower reinforcement member 23 and the pressing body 30 are integrated .

As a result, the upper end of the pressing body 30, which is a file to be installed in the conventional enlarging reinforcing base 13, is provided with a ceiling finish plate 60 or a finishing reinforcing plate 61 for integrating with the enlarged reinforcing base 13, It can be seen that the upper end of the arm 23 is mechanically fastened or welded together with the head end fin 60 or the finishing reinforcement plate 61.

However, what is pointed out as a problem at this time is the punching shear problem of the enlarged reinforcing foundation 13 at the upper end of the compressive body 30 as a file.

In other words, since the upper end of the compression body 30 as a file is formed at a position close to the upper surface of the enlarged reinforcing foundation 13, the transmission load must be concentrated on the upper end of the compression body 30 as a file, Defects due to cracks on the upper surface of the foundation could occur.

Accordingly, the present invention can solve the problems such as breakage and cracking due to punching shear in the expansion structure around the pile head, by constructing the pile on the expanded concrete structure (expansion structure, " same hereinafter & To solve the problem of providing a file reinforcement method for existing and new structure foundation which can prevent lifting (or lifting) of an extension structure in a new foundation foundation and prevention of a safety accident (indentation of an expansion structure and indentation jack detachment) It is a technical task.

In order to achieve the above technical object

First, an upper holder of a box chain having an open top is formed at the top of a guide file into which a file (steel pipe or the like) to be installed in the existing structure of the existing and new structure is inserted, and the upper holder is inserted into the guide pile, After cutting the head of the pile, the pile was fixed by using a lower fixture on the inside of the upper holder so that the head fixing position of the pile was positioned below the upper surface of the expansion structure. In addition, since the filling material such as the final shrinkage concrete is filled in the inside of the upper holder, the fixing position of the pile is located below and the finishing depth of the filling material can be sufficiently secured. Therefore, It is possible to solve the problems such as breakage and cracking caused by the cracks.

Second, an upper portion of the lower anchor is installed to be inserted into a through hole formed in a bottom plate of the upper holder so that the lower anchor of the reaction force supporting body for press-fitting the file can be reliably fixed to the expansion structure, By restricting it to the inner reinforcing bar and restraining it between the upper part and the lower part by the horizontal band steel bar, the initial setting of the upper holder and the lower anchor can be securely fixed.

Third, in case of new foundation, additional ground anchor for fixing the expansion structure to the lower ground is installed, thereby preventing the possibility of lifting the expansion structure that may occur when the file is press-fitted, thereby securing safety, Jacks, fillers, etc. are repelled from the reaction body so that safety accidents do not occur, the upper anchors are also provided with detachable safety nets to ensure safety.

According to the present invention, it is possible to solve the problem caused by the punching shear which may occur at the top of the pile in the construction of the extension structure of the existing and new structure foundation. For this purpose, the initial setting file installed in the upper holder serves as a guide when the file is press-fitted, and the head of the file can be securely fixed by the upper holder and the lower fixing member.

In addition, the upper holder, the lower anchor, and the initial setting file of the present invention can be integrally manufactured first and then installed all at once, which is very advantageous for securing construction management and quality control.

Also, it is possible to prevent a safety accident that may occur when the file is press-fitted by using the ground anchor and the detachable protective net when constructing a new foundation.

FIGS. 1A and 1B are a sectional view and a constructional view of a structure impression method using an enlarged reinforced foundation integrated with a conventional structure foundation,
Fig. 1 (c) is a view showing the fixation of a pile head of a structure lifting method using an enlarged reinforcing foundation integrated with a conventional structure foundation,
FIGS. 2A and 2B are a perspective view and an installation perspective view of an upper holder, an initial setting file, a file, a lower fixing member, a ground fixing anchor,
2C is a perspective view of a reaction force body provided with a detachable protection net according to the present invention,
FIG. 2d and FIG. 2e are perspective views of installation and installation of the detachable protective net according to the present invention,
FIGS. 3A, 3B and 3C are flow charts of a method of constructing an extension structure for an existing foundation of the present invention,
4A, 4B and 4C are flowcharts of a method of constructing an expansion structure for a new foundation of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

[Upper holder 200 and initial setting file 270 of the present invention]

FIGS. 2A through 2E show construction details of the upper holder 200, the initial setting file 270, and the file 300 installed in the expansion structure 100 of the present invention.

First, the expansion structure 100 corresponds to a foundation structure (for example, foundation of a building, lower foundation of a bridge pier, etc.)

In the existing foundation, it is a concept including a basic structure extended from a base structure (for example, foundation of a building, lower foundation of a bridge, etc.) installed in the ground, and is formed of a concrete structure.

The size of the expansion structure can be determined in consideration of the size of the new or existing structure, and at least the cross-sectional size of the pile 300 can be constructed.

3A and 3B are views showing a part of the extension structure 100 independently and the upper holder 200 is set on the upper surface and the upper holder 200 is set to be supported by the lower anchor 280 .

In the case of the existing foundation, since the expansion structure 100 is constructed on the base structure, there is no possibility of lifting the expansion structure due to the reaction force when the file is press-fitted. However, in the case of the new foundation, There is a possibility that a phenomenon may occur.

Therefore, in the case of a new foundation, in particular, the ground fixing anchor 110 such as an earth anchor, a micro pile, and a steel rod is installed on the expansion structure 100 to be installed so as to prevent the lifting phenomenon, do.

The ground fixing anchor 110 is configured such that the upper end of the horizontal inner reinforcing bar A1, which is laid in the inside of the expansion structure, is fixed by the fixing plate in the case of existing foundation and new foundation, As shown in FIG.

It can be seen that many of the ground fixing anchors 110 are installed around the construction of the pile 300.

As shown in FIGS. 2A and 2B, since the horizontal inner reinforcing bars A1 and A2 are respectively disposed on the inner lower portion and the upper portion of the expansion structure 100, the lower reinforcing bars A1 and A2 are provided with the lower anchors 280, So that the upper portion of the lower anchor extends through the through hole 230 formed in the holder bottom plate 210 of the upper holder 200 so as to pass through the inside of the upper holder 200. [

The lower anchor 280 guides the position of the upper holder 200 and has a function of supporting the upper holder 200 by the lower anchor 280.

Accordingly, the lower portion of the lower anchor 280 is folded outwardly and bound to the lower horizontal inner reinforcement A1 so that the lower anchor 280 can be fixedly fixed.

A horizontal band reinforcing bar 290 is installed at a middle portion of the lower anchor 280 so as to surround the lower anchor 280 as a kind of reinforcing bar reinforcing bar. The horizontal band reinforcing bar 290 is connected to the outer periphery of the lower anchors 280 And it is separated from the upper and lower sides.

A horizontal band reinforcing bar 290 is provided on the upper part of the lower anchor 280 located inside the upper holder 200 and is embedded by a filler so that the lower anchor 280 can reliably restrain the upper and lower portions of the expansion structure 100 And fixedly installed.

The upper horizontal inner reinforcing bar A2 may be horizontally passed through the upper portion of the upper holder 200 so that the upper horizontal reinforcing bar A2 may be bound to the lower anchor 280, May be connected to the outer circumferential surface of the upper holder 200 by welding.

This is because the lower anchor 280 serves as a lower anchor rod of the file pressing force reaction force body 500 so that it can sufficiently resist a large load.

2A and 2B, the upper holder 200 can be manufactured by assembling a steel plate in the form of a box-shaped body having an open top, and is composed of a holder bottom plate 210 and a side plate 220, A center hole 240 is formed at the center of the bottom plate 210 to allow the initial setting file 270 to pass therethrough.

A through hole 230 is formed around the center hole 240 of the holder bottom plate 210 so that the lower anchor 280 can pass therethrough.

2A and 2B, the initial setting file 270 provided in the upper holder 200 serves to guide the press-in direction of the file 300 when the file 300 is press-fitted, ) To prevent cracking and breakage due to the punching shear of the expansion structure around the pile head.

Since the filler 250 such as non-shrinkable mortar is filled in the upper holder 200, the upper holder 200 functions as a mold, and the upper surface of the upper holder 200 is set to coincide with the upper surface of the expansion structure 100, .

2C, the lower fixing member 260 is installed to be positioned on the upper surface of the holder bottom plate 210 of the upper holder 200, and contacts the upper surface of the cut file 300, In the vertical direction.

Thus, the lower fixing member 260 may be a U-shaped and a-shaped fixing member. The lower fixing member 260 is fixed to the bottom plate of the upper holder 200 while contacting the upper surface of the pile 300, And the lower anchors 280 installed to penetrate the upper holder 200. The lower anchors 280 are fixed to the lower anchors 280 by welding,

The upper portion of the upper portion of the enlarged structure 100 is effectively removed from the upper portion of the enlarged structure 100 while the upper portion of the upper portion of the upper portion of the upper portion of the enlarged structure 100 is positioned below the upper portion of the enlarged structure 100, The filler is filled in the inside of the lower fixing member 260, so that the covering effect by the finishing of the lower fixing member 260 can be expected.

The lower fixture 260 of the present invention has a reinforcing effect on the head of the pile 300 by contacting the upper surface of the pile 300, the inner bottom surface of the upper holder 200 and the lower anchor 280, However, considering the connection with the lower anchor 280 and the like, it is effective to manufacture and install such that it is formed as a cap-shaped vertical plate as a whole as shown in FIG. 2B.

Preferably, the lower fixing member 261 has a U-shaped bottom fixing member 262 for contacting with the upper surface of the pile, and a lower bottom fixing member 262 for contacting the upper surface of the pile, Shaped lower fixing member and the lower anchor 280 so as to overcome the error according to the position of the lower anchor 280. [

The initial setting file 270 is inserted into the center hole 240 of the upper holder 200 in advance so that the upper portion of the initial setting file 270 is located inside the upper holder, A steel pipe for a file can be used, and a cover material such as antilon is wrapped around the outer circumferential surface.

The initial setting file 270 is connected to the new file 300 on the upper surface and serves to guide the press-in direction of the file 300 when the upper surface holder 300 is press- 200) in order to enable simple setting. That is, since the upper holder 200 is installed on the initial setting file 170 by the center hole 240, the initial setting file 270 is installed when the upper holder 200 is integrally formed The upper holder 200 can be easily installed.

2A and 2B, the file 300 is for supporting the expansion structure 100 while allowing the load transferred to the expansion structure 100 to be transmitted to the lower ground of the expansion structure 100. The file 300 includes an initial setting file 270 And is press-fitted into the lower ground of the expansion structure 100 by operation of a push-in jack provided on the reaction force body 500. As shown in FIG.

3C and FIG. 4C, a file filling material 310 such as concrete is injected into the file 300 to function as a charging file.

Figs. 2D and 2E show an installation configuration diagram of the detachable protection net 540 for preventing the safety look-up at the time of inserting the file 300. Fig.

That is, the press-in of the file 300 uses the press-in jack 530 of the reaction force body 500. Since the press-in jack is height and weight that can be controlled by the operator, The upper anchor rod of the reaction force body passes through the upper support plate 520 and the nuts are fixed. As a result, when the fixing portion is damaged during the press-fitting operation, the heavy objects such as the press-in jack, the filler, There is a possibility of a safety accident.

In particular, the press-in jack 530 fixed by the fastening bolt through the fastening hole 521 of the upper brace plate 520 can be fixed to the upper anchor with a heavy load, but this can also cause a safety accident to the operator.

Accordingly, the present invention provides a detachable protection net 540 for covering the upper anchor.

The detachable protection net 540 includes a claw protrusion 541 and a claw protrusion 542 so as to be inserted into the upper anchor 510. The claw protector 541 is connected to the upper end of the upper anchor 510, And a rotary hinge 543 is formed on the outer surface of the pawl portion 542. When the two pawl portions are disposed on the upper anchor 510 so as to be in contact with each other, ) Are used to constrain each other. Even if the filler flickers during the press-fitting operation, the detachable protection net 540 does not become a threat to the surrounding worker.

[File reinforcement method of existing and new structure foundation of the present invention]

[When constructing a new extension structure on an existing foundation]

The existing file reinforcement method can be referred to as a new method of constructing an extension structure on the existing foundation. The file 300 is installed on the extension structure 100 in which the already existing foundation is extended to the reinforced concrete. And the initial setting file 170. The lower fixing member 260 is used to fix the head from below the upper surface of the expansion structure.

First, the existing foundation is used, for example, when it is necessary to expand the lower foundation supporting the bridge pier as a method for reinforcing the constructed bridge pier to construct the bridge.

Thus, the anchor bar 120 is installed on the lower foundation to be expanded as shown in FIG. 3A.

The anchor bar 120 is installed in order to secure sufficient adhesion performance with the concrete to be laid to form the expansion structure 100.

Next, the initial setting file 270 is set around the anchor bar 120. The initial setting file 270 uses a steel pipe for the file. Since the initial setting file 270 serves to guide the press fitting of the file 300, the initial setting file 270 uses the same diameter as the diameter of the file 300.

At this time, the initial setting file 270 may be simply installed on the ground.

At this time, the upper holder 200 is installed in advance on the initial setting file 270, and the lower anchor 280 and the horizontal strip reinforcing bar 290 are also installed in the upper holder 200, The holder 200, the lower anchor 280, the horizontal band reinforcing bars 290 and the initial setting file 270 are integrally formed (not fixed in the sense of being pressed) desirable.

At this time, it can be seen that the lower anchor 280 is extended upward through the inside of the upper holder 200, and the outer side of the initial setting file 270 is covered with a covering material (silver leaf thermal insulation material, The concrete C is not directly contacted.

Next, the horizontal inner reinforcing bars A1 and A2 for the expanding structure 100 are laid, and the lower portion of the lower anchoring barrel 280 is folded and bound to the lower horizontal inner reinforcing bar A1.

Next, the ground fixing anchor 110 is installed so as to be positioned between the file installation positions.

Next, the height of the expansion structure 100 is determined based on the upper surface of the upper holder 200 to pour the concrete so that the upper surface of the expansion structure coincides with the upper surface of the lower foundation, and the concrete poured by the anchor bar 120 The expansion structure 100 is constructed so that the cross section of the lower foundation becomes larger.

At this time, since the concrete is not laid in the upper holder 200, the inside can be secured as a hollow space.

Next, as shown in FIG. 3B, a reaction force body 500 is connected to the upper end of the lower anchor 280 extending from the upper holder 200 through a fastener such as a coupler or a nut, (Welding or the like).

The file 300 is connected to the upper surface of the initial setting file 170 and is set to be extended upward.

Such a file 300 may be obtained by machining so as to have a length considering the installation height of a reaction force body 500 to be described later.

The reaction force body 500 includes a top anchor 510, an upper support plate 520, a press-in jack 530, and a detachable protection net 540, And the like.

That is, first, the upper anchor (510) is connected to the upper end of the lower anchor (280) extending upward through the through hole (230) of the upper holder (200) A bolt is formed on the upper end of the upper anchor 510 to be fixed by the nut through the upper supporting plate 520.

The push-in jack 530 is fixed between the bottom surface of the upper boot plate 520 and the upper surface of the file 300 inserted in the initial setting file 270 to provide a force to push down the file 300.

The upper bushing plate 520 and the press-fit jack 530 are integrally formed (fixed with fixing bolts), and the upper surface of the pile 300 and the lower surface of the press-in jack 530 Filler (a type of secondary steel pipe, multi-layer stacking) is used to enable field handling according to load transmission and length.

In this way, the file 300 is pressed into a desired depth while connecting a plurality of files.

Next, as shown in FIG. 3C, the reaction force body 500 is disassembled from the lower anchor 280 and the head of the pile 300 is cut so that the upper surface thereof is positioned inside the upper holder 200.

Next, the inside of the file 300 is filled with concrete or the like so as to be formed as a filling file, and the lower fixing member 260 as described above is brought into contact with the upper surface of the head of the cut file 300, The upper end of the lower fixing member 260 is fixed to the lower anchor 280 so that the head of the pile 300 is fixed to the lower portion of the upper holder 200 So as to be fixed.

Next, the upper holder 200 is filled with a filler material 250 such as non-shrinkage concrete.

It can be seen that the head fixing position of the file 300 is not located on the upper surface of the expansion structure 100 but is located below the upper surface of the expansion structure 100. In addition, The holder 200 is integrated with each other, which is a very favorable form for reinforcement of the pile head.

[When constructing expansion structure as foundation of new structure]

4A, 4B, and 4C, the expansion structure 100 such as a bridge, a building, or the like is newly installed from the beginning, and the file 300 is installed using the upper holder 200 and the initial setting file 270 It can be said that it is installed. In this case, the anchor bar 120 is not installed, and there is no significant difference from the construction method described above.

The initial setting file 270, the upper holder 200, the lower anchor 280, and the horizontal band bar 290 are initially set according to the installation position of the file 300 as shown in FIG. 4A.

That is, the upper holder 200 is formed in advance in the initial setting file 270, and the lower anchors 280 and the horizontal strip reinforcing bars 290 are also formed together.

Next, upper and lower horizontal inner reinforcing bars A1 and A2 necessary for the expansion structure 100 are disposed.

Next, the ground fixing anchor 110 is installed so as to be positioned between the file installation positions. In the case of the foundation construction of a new structure, particularly, by providing such a ground fixing anchor 110, reaction force supporting and lifting of the expansion structure by the reaction force body 500 can be prevented.

As shown in FIG. 4B, the expansion structure 100 is installed by pouring concrete for constructing the expansion structure 100. At this time, since the concrete is not laid in the upper holder 200, the inside can be secured as a hollow space.

Next, the reaction force body 500 is installed on the upper end of the lower anchor 280 extending from the upper holder 200 using a fastener, and the file 300 is connected to the initial setting file 270.

That is, the upper anchor 510 is connected to the upper end of the lower anchor 280 by means of fasteners so that the upper anchor 510 extends upward. Is fixed.

An upper support plate 520 (a plate member such as a circular plate) and a press-in jack 530 are integrally formed.

 The push-in jack 530 is then operated to push down the file 300 together with the initial setting file 270 to a desired depth.

Next, as shown in FIG. 4C, the reaction force body 500 is disassembled from the lower anchor 280, the head of the pile 300 is cut, and the upper surface of the pile 300 is set in the upper holder 200.

Next, the inside of the file 300 is filled with concrete or the like so as to be formed as a filling file, and the lower fixing member 260 as described above is brought into contact with the upper surface of the head of the cut file 300, The upper end of the lower fixing member 260 is fixed to the lower anchor 280 so that the head of the pile 300 is fixed to the lower portion of the upper holder 200 So as to be fixed.

Next, the upper holder 200 is filled with a filler such as non-shrinkage concrete to be finished.

As a result, it can be seen that the head fixing position of the pile 300 in the present invention is not located on the upper surface of the expansion structure 100, but is located on the lower side from the upper surface of the expansion structure 100, The lower fixture 260 and the upper holder 200 are integrated with each other, which is a very advantageous form for reinforcing the pile head.

It can be seen that the head fixing position of the file 300 is not located on the upper surface of the expansion structure 100 but is located below the upper surface of the expansion structure 100. In addition, The holder 200 is integrated with each other, which is a very favorable form for reinforcement of the pile head.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: Expansion structure
110: Ground anchor
120: Anchor Bar
200: upper holder
210: holder bottom plate 220: side plate
230: through hole 240: center hole
250: Filler 260: Lower fixing member
270 Initial setting file 280 Lower anchor
290: Horizontal band reinforcing bars
300: File 310: File filler
500: reaction force body 510: upper anchor
520: upper brace plate 530: press-in jack
540: Removable protective net 541: Protective net
542: claw portion 543: rotary hinge
544: Fixing pin

Claims (7)

(a) The upper portion of the initial setting file 270 is inserted into the center hole 240 formed in the holder bottom plate 210 of the upper holder 200 in the form of a box with the upper part opened, And a lower anchor 280 extending downwardly through the bottom plate of the upper holder 200 so as to extend upwardly through the upper holder 200. An upper holder 200 provided with a lower anchor 280 is provided at an initial Setting a setting file (270) on an upper surface of the ground;
(b) casting and curing the concrete so that the initial setting file (270) and the interior of the upper holder (200) are left as empty spaces;
(c) a reaction force body 500 including an upper anchor 510 is connected to the upper end of the lower anchor 280, and the reaction force body 500 is inserted into the initial setting file 270, Pushing the pile 300 downward into the ground of the expansion structure 100 using the push-in jack 530 installed in the extension structure 100; And
(d) The reaction force body 500 is disassembled and the head of the cut pile 300 is positioned in the lower portion of the inside of the upper holder 200, and then the head 300 of the pile 300 is cut To the inner bottom surface of the upper holder (200)
The head fixing position of the file 300 is positioned on the inner lower side of the upper holder 200 from the upper surface of the expanding structure 100,
The reaction force body 500 includes an upper anchor 510 connected to the upper end of the lower anchor 280; An upper support plate 520 installed at an upper end of the upper anchor 510; A press-in jack 530 installed between the upper support plate 520 and the upper surface of the pile 300; And a pawl portion 542 provided to be fitted to the upper anchor 510 at the connection end of the arc-shaped protection net 541 which is divided into a plurality of portions while surrounding the upper anchor 510; When the two claw portions 542 are vertically contacted to the upper anchor 510 so that the rotary hinge 543 is formed on the outer surface of the pawl portion 542, And a detachable protective net (540) installed so as to be constrained to each other by using the first and second reinforcing members (544). The method according to claim 1,
The upper end of the lower anchor 280 is passed through a through hole 230 formed around the center hole 240 of the upper holder 200 and the lower end of the lower anchor 280 is bent, To be bound to the reinforcing bar (A1)
The lower anchors 280 under the upper holder 200 are coupled by the horizontal band reinforcing bars 290 so that the lower anchors 280 are integrally formed together with the initial setting files 270 in the lower portion of the upper holder 200 File reinforcement method of existing and new structure foundation to be installed. The method according to claim 1,
Wherein the ground fixing anchor (110) is installed around the file (300) so as to extend to the lower ground of the expansion structure. The method according to claim 1,
The lower fixing member 260 is vertically formed by welding on the upper surface of the holder bottom plate 210 while being in contact with the upper surface of the cut pile 300. The lower fixing member 260 is installed to penetrate the upper holder 200 A file reinforcement method for existing and new structure based on which the side surface is fixed by welding by the lower anchor 280. The method according to claim 1,
After the step (d), the filler 250 is filled in the upper holder 200 to finish the lower fixture 260, the head of the pile 300 and the lower anchor 280 are filled with the filler File reinforcement method of existing and new structure foundation to be closed. The method according to claim 1,
The expansion structure 100 is a concrete structure that is newly formed as a foundation of a new structure or is integrated with an existing foundation by anchor bars 120, or a file reinforcement method based on existing and new structures. delete

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